Microbiology
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Transcript Microbiology
Ch 13
Viruses
and
Prions
Student Learning Outcomes
Differentiate a virus from a bacterium.
Explain the difference between enveloped and
nonenveloped viruses.
Define viral species.
Describe how bacteriophages and animal viruses are
cultured.
Compare and contrast the lytic and lysogenic cycles of
bacteriophages.
Define oncogene and transformed cell.
Discuss the relationship between viruses and cancer.
Explain latent viral infections and give an example.
Discuss how a proteins can be infectious.
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Foundations of Virology
Non-living agents that infect all life forms
(phages vs. animal viruses)
Viral cultivation differs from bacterial
cultivation
1,500 known viruses
(estimates: 400,000 exist)
Advent of EM allowed for
visualization of viruses
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General Characteristics of Viruses
Obligatory intracellular parasites
Filterable
Virus = Latin for poison
Contain DNA or RNA
Contain a protein coat = capsid made up of
capsomeres. Various shapes
Some are enclosed by an envelope (naked vs. enveloped)
Some viruses have spikes (COH/protein)
Most viruses are tissue specific
Host range is determined by specific host attachment
sites and cellular factors
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Virus Shapes and Sizes
Fig 13.1
Polyhedral
Morphology of an enveloped helical virus
Fig 13.3
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Host Range and Specificity
Virus / host cell interaction usually very
specific (narrow host range) – due
to?
Tissue tropism
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Taxonomy of Viruses
No evidence for common viral ancestor.
Classification based on type of NA, strategy for
replication, and morphology.
Family names end in –viridae
Genus and species names end in -virus.
Viral species: A group of viruses sharing the same
genetic information and ecological niche (host).
Common names are used for species.
Subspecies are designated by a number.
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Taxonomy of Viruses
Herpesviridae
Herpesvirus
Human herpes virus
HHV-1, HHV-2, HHV-3
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Retroviridae
Lentivirus
Human
immunodeficiency
virus HIV-1, HIV-2
Isolation, Cultivation, and Identification
Fig 13.6
of Viruses
Viruses must be grown in
living cells
Bacteriophages form plaques
on a lawn of bacteria
Animal viruses may be grown
in cell culture, embryonated
eggs, or living animals
Fig 13.8
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Virus Identification
Cytopathic effects
Serological tests
Detect antibodies against viruses in a patient
Use antibodies to identify viruses in neutralization tests,
viral hemagglutination, and Western blot
Nucleic acids
RFLPs
PCR
Novel methods
such as Biophotonics
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Viral Replication
Obligate intracellular parasites using
host cell machinery
Very limited number of genes encode
proteins for
Capsid formation
Viral nucleic acid replication
Movement of virus into and out of cell
Kill or live in harmony within the host cell
– Outside the cell, viruses are inert
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Bacteriophage:
The Lytic Cycle
1. Attachment to cell surface receptors (chance
encounter – no active movement)
2. Penetration – only genome enters
3. Biosynthesis – Production of phage DNA and
proteins
4. Maturation – assembly to form intact phage
5. Release due to phage induced lysozyme
production
See Fig 13.11
Lytic Cycle of a T-Even Bacteriophage
1
2
3
Fig 13.11
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Lytic Cycle of a T-Even Bacteriophage
4
Fig 13.11
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Results of Multiplication of Bacteriophages
Lytic cycle
Lytic or virulent phage
Phage causes lysis and death of host cell
Lysogenic cycle
Lysogenic or temperate phage
Phage DNA incorporated in host DNA Prophage
Phage conversion
Specialized transduction
ANIMATION Viral Replication: Virulent Bacteriophages
ANIMATION Viral Replication: Temperate Bacteriophages
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Lytic and Lysogenic Cycles
Fig 13.12
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Some animal viruses exit the host cells via
budding.
HSV envelopment and release
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Inc.
Compare
Fig.
13.20
Multiplication of DNA Viruses
Foundation Fig 13.15
ANIMATION Viral Replication: Animal Viruses
Multiplication of RNA Viruses
Fig 13.17
Multiplication of
a Retrovirus
Fig 13.19
Cancer
Cancer uncontrolled mitotic divisions
Benign vs. malignant tumors
Oncology
3 important characteristics of cancer
cells:
1. Rapid cell division
2. Loss of anchoring junctions and contact
inhibition metastasis
3. Dedifferentiation of cells
Viruses and Cancer
The genetic material of oncogenic viruses
becomes integrated into the host cell’s DNA
(provirus).
Conversion of proto-oncogenes to oncogenes
Activated oncogenes transform normal cells into
cancerous cells
Transformed cells have increased growth, loss
of contact inhibition, tumor-specific transplant
antigens, and T antigens
Oncogenic Viruses are responsible for 10 % of
human cancers
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Oncogenic
DNA Viruses and RNA Viruses
Papilloma virus (HPV)
cervical cancer
Epstein-Barr virus
(EBV) Burkitt’s
lymphoma
HV8 Kaposi’s
sarcoma
Hepatitis B virus (HBV)
liver cancer
Hepatitis C virus
(HCV) liver
cancer
human T-cell
leukemia virus
(HTLV-1)
Latent and Persistent Viral Infections
Latent:
Virus remains in
asymptomatic
host cell for
long periods
Persistent:
Disease
processes
occurs over a
long period;
generally is
fatal
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Fig 13.21
Prions
Small proteinaceous infectious particles (very
resistant to inactivation)
Inherited and transmissible by ingestion, transplant,
and surgical instruments
Causes spongiform encephalopathies:
Sheep scrapie,
Creutzfeldt-Jakob disease,
Gerstmann-Sträussler-Scheinker syndrome,
fatal familial insomnia,
mad cow disease
PrPC: Normal cellular prion protein, on cell surface.
Involved in cell death.
PrPSc: Scrapie protein; accumulates in brain cells,
forming plaques.
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Spongiform Encephalopaties
Caused by altered protein:
Mutation in normal PrPc gene (sporadic CJD), or
contact with the abnormal PrPSc protein
ANIMATION Prion: Overview
ANIMATION Prion: Characteristics
ANIMATION Prion: Diseases